VOL. 10: Modeling of the SeaWiFS Solar and Lunar Observations.
Citation:
Woodward, R.H., R.A. Barnes, C.R. McClain, W.E. Esaias, W.L. Barnes, and A.T.
Mecherikunnel, 1993: Modeling of the SeaWiFS Solar and Lunar Observations. NASA
Tech. Memo. 104566, Vol. 10, S.B. Hooker and E.R. Firestone, Eds., NASA Goddard
Space Flight Center, Greenbelt, Maryland, 26 pp.
Post-launch stability monitoring of the Sea-viewing Wide Field-of-view
Sensor (SeaWiFS) will include periodic sweeps of both an onboard solar
diffuser plate and the moon. The diffuser views will provide short-term checks
and the lunar views will monitor long-term trends in the instrument's radiometric
stability. Models of the expected sensor response to these observations were
created on the SeaWiFS computer at the National Aeronautics and Space
Administration's (NASA) Goodard Space Flight Center (GSFC) using the Interactive
Data Language (IDL) utility with a graphical user interface (GUI). The solar
model uses the area of intersecting circles to simulate the ramping of sensor
response while viewing the diffuser. This model is compared with preflight
laboratory scans of the solar diffuser. The lunar model reads a high resolution
lunar image as input. The observations of the moon are simulated with a bright
target recovery algorithm that includes ramping and ringing functions. Tests
using the lunar model indicate that the integrated radiance of the entire lunar
surface provides a more stable quantity than the mean of radiances from
centralized pixels. The lunar model is compared to ground-based scans by the
SeaWiFS instrument of a full moon in December 1992. Quality assurance and trend
analyses routines for calibration and for telemetry data are also discussed.
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